/*
   Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301  USA
*/

#ifndef TC_KEY_REQ_H
#define TC_KEY_REQ_H

#include "SignalData.hpp"
#include <transporter/TransporterDefinitions.hpp>

/**
 * @class TcKeyReq
 * @brief Contains KeyInfo and AttrInfo and is commonly followed by more signals
 *
 * - SENDER:    API, NDBCNTR
 * - RECEIVER:  TC
 *
 * Short TCKEYREQ
 * Prior to NDB 6.4.0, TCKEYREQ was always sent as a short signal train with 
 * up to 8 words of KeyInfo and 5 words of AttrInfo in the TCKEYREQ signal, and 
 * all other Key and AttrInfo sent in separate signal trains.  This format is 
 * supported for non NdbRecord operations, backwards compatibility, and for 
 * internal TCKEYREQ signals received from non-API clients.
 * 
 * Long TCKEYREQ
 * From NDB 6.4.0, for NdbRecord operations the API nodes send long TCKEYREQ 
 * signals with all KeyInfo and AttrInfo in long sections sent with the 
 * TCKEYREQ signal.  As each section has a section length, and no Key/AttrInfo 
 * is sent in the TCKEYREQ signal itself, the KeyLength, AttrInfoLen and 
 * AIInTcKeyReq fields of the header are no longer required, and their bits 
 * can be reused in future.
 */
class TcKeyReq {
  /**
   * Receiver(s)
   */
  friend class Dbtc;         // Receiver

  /**
   * Sender(s)
   */
  friend class Ndbcntr;
  friend class NdbQueryImpl;
  friend class NdbOperation;
  friend class NdbIndexOperation;
  friend class NdbScanOperation;
  friend class NdbBlob;
  friend class DbUtil;
  friend class Trix;

  /**
   * For printing
   */
  friend bool printTCKEYREQ(FILE *, const Uint32 *, Uint32, Uint16);
  friend bool printTCINDXREQ(FILE *, const Uint32 *, Uint32, Uint16);

public:
  /**
   * Length of signal
   */
  STATIC_CONST( StaticLength = 8 );
  STATIC_CONST( SignalLength = 25 );
  STATIC_CONST( MaxKeyInfo = 8 );
  STATIC_CONST( MaxAttrInfo = 5 );
  STATIC_CONST( MaxTotalAttrInfo = ((MAX_SEND_MESSAGE_BYTESIZE / 4) - 
                                    SignalLength ));

  /**
   * Long signal variant of TCKEYREQ
   */
  STATIC_CONST( KeyInfoSectionNum = 0 );
  STATIC_CONST( AttrInfoSectionNum = 1 );

  STATIC_CONST( UnlockKeyLen = 2 );

private:

  enum AbortOption {
    CommitIfFailFree = 0, AbortOnError = 0,
    CommitAsMuchAsPossible = 2, IgnoreError = 2
  };
  
  typedef AbortOption CommitType;
  
  /**
   * DATA VARIABLES
   */

  // ----------------------------------------------------------------------
  //  Unconditional part = must be present in signal.  First 8 words
  // ----------------------------------------------------------------------
  Uint32 apiConnectPtr;        // DATA 0
  union {
    Uint32 senderData;
    UintR apiOperationPtr;      // DATA 1
  };
  /**
   * Short TCKEYREQ only : 
   *   ATTRIBUTE INFO (attrinfo) LENGTH
   *   This is the total length of all attribute info that is sent from
   *   the application as part of this operation. 
   *   It includes all attribute info sent in possible attrinfo 
   *   signals as well as the attribute info sent in TCKEYREQ.
   *
   *   (APIVERSION << 16 | ATTRINFOLEN)
   *
   * Long TCKEYREQ
   *   (APIVERSION << 16)
   *   Get AttrInfoLength from length of section 1, if present.
   *
   */
  UintR attrLen;              // DATA 2   (also stores API Version)
  UintR tableId;              // DATA 3
  UintR requestInfo;          // DATA 4   Various transaction flags
  UintR tableSchemaVersion;   // DATA 5
  UintR transId1;             // DATA 6
  UintR transId2;             // DATA 7

  // ----------------------------------------------------------------------
  //  Conditional part = can be present in signal. 
  //  These four words will be sent only if their indicator is set.
  // ----------------------------------------------------------------------
  UintR scanInfo;             // DATA 8   Various flags for scans, see below
  UintR distrGroupHashValue;  // DATA 9
  UintR distributionKeySize;  // DATA 10
  UintR storedProcId;         // DATA 11

  // ----------------------------------------------------------------------
  //  Variable sized KEY and ATTRINFO part. 
  //  These will be placed to pack the signal in an appropriate manner.
  // ----------------------------------------------------------------------
  UintR keyInfo[MaxKeyInfo];           // DATA 12 - 19
  UintR attrInfo[MaxAttrInfo];          // DATA 20 - 24
  
  /**
   * Get:ers for attrLen
   */ 

  static Uint16  getAPIVersion(const UintR & attrLen);
  static Uint16  getAttrinfoLen(const UintR & attrLen);
  static void setAPIVersion(UintR & attrLen, Uint16 apiVersion);
  static void setAttrinfoLen(UintR & attrLen, Uint16 aiLen);


  /**
   * Get:ers for requestInfo
   */
  static Uint8 getCommitFlag(const UintR & requestInfo);
  static Uint8 getAbortOption(const UintR & requestInfo);
  static Uint8 getStartFlag(const UintR & requestInfo);
  static Uint8 getSimpleFlag(const UintR & requestInfo);
  static Uint8 getDirtyFlag(const UintR & requestInfo);
  static Uint8 getInterpretedFlag(const UintR & requestInfo);
  static Uint8 getDistributionKeyFlag(const UintR & requestInfo);
  static Uint8 getViaSPJFlag(const UintR & requestInfo);
  static Uint8 getScanIndFlag(const UintR & requestInfo);
  static Uint8 getOperationType(const UintR & requestInfo);
  static Uint8 getExecuteFlag(const UintR & requestInfo);

  static Uint16 getKeyLength(const UintR & requestInfo);
  static Uint8  getAIInTcKeyReq(const UintR & requestInfo);
  static UintR  getNoDiskFlag(const UintR & requestInfo);

  static UintR getCoordinatedTransactionFlag(const UintR & requestInfo);

  /**
   * Get:ers for scanInfo
   */
  static Uint8  getTakeOverScanFlag(const UintR & scanInfo);
  static Uint16 getTakeOverScanFragment(const UintR & scanInfo);
  static Uint32 getTakeOverScanInfo(const UintR & scanInfo);


  /**
   * Set:ers for requestInfo
   */
  static void clearRequestInfo(UintR & requestInfo);
  static void setAbortOption(UintR & requestInfo, Uint32 type);
  static void setCommitFlag(UintR & requestInfo, Uint32 flag);
  static void setStartFlag(UintR & requestInfo, Uint32 flag);
  static void setSimpleFlag(UintR & requestInfo, Uint32 flag);
  static void setDirtyFlag(UintR & requestInfo, Uint32 flag);
  static void setInterpretedFlag(UintR & requestInfo, Uint32 flag);
  static void setDistributionKeyFlag(UintR & requestInfo, Uint32 flag);
  static void setViaSPJFlag(UintR & requestInfo, Uint32 flag);
  static void setScanIndFlag(UintR & requestInfo, Uint32 flag);
  static void setExecuteFlag(UintR & requestInfo, Uint32 flag);  
  static void setOperationType(UintR & requestInfo, Uint32 type);
  
  static void setKeyLength(UintR & requestInfo, Uint32 len);
  static void setAIInTcKeyReq(UintR & requestInfo, Uint32 len);
  static void setNoDiskFlag(UintR & requestInfo, UintR val);

  static void setReorgFlag(UintR & requestInfo, UintR val);
  static UintR getReorgFlag(const UintR & requestInfo);
  static void setCoordinatedTransactionFlag(UintR & requestInfo, UintR val);
  static void setQueueOnRedoProblemFlag(UintR & requestInfo, UintR val);
  static UintR getQueueOnRedoProblemFlag(const UintR & requestInfo);

  /**
   * Check constraints deferred
   */
  static UintR getDeferredConstraints(const UintR & requestInfo);
  static void setDeferredConstraints(UintR & requestInfo, UintR val);

  /**
   * Set:ers for scanInfo
   */
  static void setTakeOverScanFlag(UintR & scanInfo, Uint8 flag);
  static void setTakeOverScanFragment(UintR & scanInfo, Uint16 fragment);
  static void setTakeOverScanInfo(UintR & scanInfo, Uint32 aScanInfo);
};

/**
 * Request Info
 *
 a = Attr Info in TCKEYREQ - 3  Bits -> Max 7 (Bit 16-18)
     (Short TCKEYREQ only, for long req a == 0)
 b = Distribution Key Ind  - 1  Bit 2
 v = Via SPJ               - 1  Bit 3
 c = Commit Indicator      - 1  Bit 4
 d = Dirty Indicator       - 1  Bit 0
 e = Scan Indicator        - 1  Bit 14
 i = Interpreted Indicator - 1  Bit 15
 k = Key length            - 12 Bits -> Max 4095 (Bit 20 - 31)
     (Short TCKEYREQ only, for long req use length of
      section 0)
 o = Operation Type        - 3  Bits -> Max 7 (Bit 5-7)
 l = Execute               - 1  Bit 10
 p = Simple Indicator      - 1  Bit 8
 s = Start Indicator       - 1  Bit 11
 y = Commit Type           - 2  Bit 12-13
 n = No disk flag          - 1  Bit 1
 r = reorg flag            - 1  Bit 19
 x = Coordinated Tx flag   - 1  Bit 16
 q = Queue on redo problem - 1  Bit 9
 D = deferred constraint   - 1  Bit 17

           1111111111222222222233
 01234567890123456789012345678901
 dnb cooop lsyyeiaaarkkkkkkkkkkkk  (Short TCKEYREQ)
 dnbvcooopqlsyyeixD r              (Long TCKEYREQ)
*/

#define TCKEY_NODISK_SHIFT (1)
#define COMMIT_SHIFT       (4)
#define START_SHIFT        (11)
#define SIMPLE_SHIFT       (8)
#define DIRTY_SHIFT        (0)
#define EXECUTE_SHIFT      (10)
#define INTERPRETED_SHIFT  (15)
#define DISTR_KEY_SHIFT    (2)
#define VIA_SPJ_SHIFT      (3)
#define SCAN_SHIFT         (14)

#define OPERATION_SHIFT   (5)
#define OPERATION_MASK    (7)

#define AINFO_SHIFT       (16)
#define AINFO_MASK        (7)

#define KEY_LEN_SHIFT     (20)
#define KEY_LEN_MASK      (4095)

#define COMMIT_TYPE_SHIFT  (12)
#define COMMIT_TYPE_MASK   (3)

#define TC_REORG_SHIFT     (19)
#define QUEUE_ON_REDO_SHIFT (9)

#define TC_COORDINATED_SHIFT (16)
#define TC_DEFERRED_CONSTAINTS_SHIFT (17)

/**
 * Scan Info
 *
 * Scan Info is used to identify the row and lock to take over from a scan.
 *
 * If "Scan take over indicator" is set, this operation will take over a lock
 * currently held on a row being scanned.
 * Scan locks not taken over in this way (by same or other transaction) are
 * released when fetching the next batch of rows (SCAN_NEXTREQ signal).
 * The value for "take over node" and "scan info" are obtained from the
 * KEYINFO20 signal sent to NDB API by LQH if requested in SCAN_TABREQ.
 *
 t = Scan take over indicator -  1 Bit
 n = Take over node           - 12 Bits -> max 4095
 p = Scan Info                - 18 Bits -> max 0x3ffff

           1111111111222222222233
 01234567890123456789012345678901
 tpppppppppppppppppp nnnnnnnnnnnn
*/

#define TAKE_OVER_SHIFT      (0)

#define TAKE_OVER_FRAG_SHIFT (20)
#define TAKE_OVER_FRAG_MASK  (4095)

#define SCAN_INFO_SHIFT      (1)
#define SCAN_INFO_MASK       (0x3ffff)

/**
 * Attr Len
 *
 n = Attrinfo length(words)   - 16 Bits -> max 65535 (Short TCKEYREQ only)
 a = API version no           - 16 Bits -> max 65535

           1111111111222222222233
 01234567890123456789012345678901
 aaaaaaaaaaaaaaaannnnnnnnnnnnnnnn   (Short TCKEYREQ)
 aaaaaaaaaaaaaaaa                   (Long TCKEYREQ)
*/

#define API_VER_NO_SHIFT     (16)
#define API_VER_NO_MASK      (65535)

#define ATTRLEN_SHIFT        (0)
#define ATTRLEN_MASK         (65535)

inline
Uint8
TcKeyReq::getCommitFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> COMMIT_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getAbortOption(const UintR & requestInfo){
  return (Uint8)((requestInfo >> COMMIT_TYPE_SHIFT) & COMMIT_TYPE_MASK);
}

inline
Uint8
TcKeyReq::getStartFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> START_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getSimpleFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> SIMPLE_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getExecuteFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> EXECUTE_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getDirtyFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> DIRTY_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getInterpretedFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> INTERPRETED_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getDistributionKeyFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> DISTR_KEY_SHIFT) & 1);
}

inline
UintR
TcKeyReq::getCoordinatedTransactionFlag(const UintR & requestInfo){
  return (UintR)((requestInfo >> TC_COORDINATED_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getViaSPJFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> VIA_SPJ_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getScanIndFlag(const UintR & requestInfo){
  return (Uint8)((requestInfo >> SCAN_SHIFT) & 1);
}

inline
Uint8
TcKeyReq::getOperationType(const UintR & requestInfo){
  return (Uint8)((requestInfo >> OPERATION_SHIFT) & OPERATION_MASK);
}

inline
Uint16 
TcKeyReq::getKeyLength(const UintR & requestInfo){
  return (Uint16)((requestInfo >> KEY_LEN_SHIFT) & KEY_LEN_MASK);
}

inline
Uint8
TcKeyReq::getAIInTcKeyReq(const UintR & requestInfo){
  return (Uint8)((requestInfo >> AINFO_SHIFT) & AINFO_MASK);
}

inline
void 
TcKeyReq::clearRequestInfo(UintR & requestInfo){
  requestInfo = 0;
}

inline
void 
TcKeyReq::setAbortOption(UintR & requestInfo, Uint32 type){
  ASSERT_MAX(type, COMMIT_TYPE_MASK, "TcKeyReq::setAbortOption");
  requestInfo &= ~(COMMIT_TYPE_MASK << COMMIT_TYPE_SHIFT);
  requestInfo |= (type << COMMIT_TYPE_SHIFT);
}

inline
void 
TcKeyReq::setCommitFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setCommitFlag");
  requestInfo &= ~(1 << COMMIT_SHIFT);
  requestInfo |= (flag << COMMIT_SHIFT);
}

inline
void 
TcKeyReq::setStartFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setStartFlag");
  requestInfo &= ~(1 << START_SHIFT);
  requestInfo |= (flag << START_SHIFT);
}

inline
void 
TcKeyReq::setSimpleFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setSimpleFlag");
  requestInfo &= ~(1 << SIMPLE_SHIFT);
  requestInfo |= (flag << SIMPLE_SHIFT);
}

inline
void 
TcKeyReq::setDirtyFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setDirstFlag");
  requestInfo &= ~(1 << DIRTY_SHIFT);
  requestInfo |= (flag << DIRTY_SHIFT);
}

inline
void 
TcKeyReq::setExecuteFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setExecuteFlag");
  requestInfo &= ~(1 << EXECUTE_SHIFT);
  requestInfo |= (flag << EXECUTE_SHIFT);
}

inline
void 
TcKeyReq::setInterpretedFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setInterpretedFlag");
  requestInfo &= ~(1 << INTERPRETED_SHIFT);
  requestInfo |= (flag << INTERPRETED_SHIFT);
}

inline
void 
TcKeyReq::setDistributionKeyFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setDistributionKeyFlag");
  requestInfo &= ~(1 << DISTR_KEY_SHIFT);
  requestInfo |= (flag << DISTR_KEY_SHIFT);
}

inline
void
TcKeyReq::setCoordinatedTransactionFlag(UintR & requestInfo, UintR flag){
  ASSERT_BOOL(flag, "TcKeyReq::setCoordinatedTransactionFlag");
  requestInfo &= ~(1 << TC_COORDINATED_SHIFT);
  requestInfo |= (flag << TC_COORDINATED_SHIFT);
}

inline
void 
TcKeyReq::setViaSPJFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setViaSPJFlag");
  requestInfo &= ~(1 << VIA_SPJ_SHIFT);
  requestInfo |= (flag << VIA_SPJ_SHIFT);
}

inline
void
TcKeyReq::setScanIndFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setScanIndFlag");
  requestInfo &= ~(1 << SCAN_SHIFT);
  requestInfo |= (flag << SCAN_SHIFT);
}

inline
void 
TcKeyReq::setOperationType(UintR & requestInfo, Uint32 type){
  ASSERT_MAX(type, OPERATION_MASK, "TcKeyReq::setOperationType");
  requestInfo &= ~(OPERATION_MASK << OPERATION_SHIFT);
  requestInfo |= (type << OPERATION_SHIFT);
}

inline
void 
TcKeyReq::setKeyLength(UintR & requestInfo, Uint32 len){
  ASSERT_MAX(len, KEY_LEN_MASK, "TcKeyReq::setKeyLength");
  requestInfo &= ~(KEY_LEN_MASK << KEY_LEN_SHIFT);
  requestInfo |= (len << KEY_LEN_SHIFT);
}

inline
void 
TcKeyReq::setAIInTcKeyReq(UintR & requestInfo, Uint32 len){
  ASSERT_MAX(len, AINFO_MASK, "TcKeyReq::setAIInTcKeyReq");
  requestInfo &= ~(AINFO_MASK << AINFO_SHIFT);
  requestInfo |= (len << AINFO_SHIFT);
}

inline
Uint8 
TcKeyReq::getTakeOverScanFlag(const UintR & scanInfo){
  return (Uint8)((scanInfo >> TAKE_OVER_SHIFT) & 1);
}

inline
Uint16
TcKeyReq::getTakeOverScanFragment(const UintR & scanInfo){
  return (Uint16)((scanInfo >> TAKE_OVER_FRAG_SHIFT) & TAKE_OVER_FRAG_MASK);
}

inline
Uint32 
TcKeyReq::getTakeOverScanInfo(const UintR & scanInfo){
  return (Uint32)((scanInfo >> SCAN_INFO_SHIFT) & SCAN_INFO_MASK);
}


inline
void
TcKeyReq::setTakeOverScanFlag(UintR & scanInfo, Uint8 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setTakeOverScanFlag");
  scanInfo |= (flag << TAKE_OVER_SHIFT);
}

inline
void
TcKeyReq::setTakeOverScanFragment(UintR & scanInfo, Uint16 node){
//  ASSERT_MAX(node, TAKE_OVER_NODE_MASK, "TcKeyReq::setTakeOverScanNode");
  scanInfo |= (node << TAKE_OVER_FRAG_SHIFT);
}

inline
void
TcKeyReq::setTakeOverScanInfo(UintR & scanInfo, Uint32 aScanInfo){
//  ASSERT_MAX(aScanInfo, SCAN_INFO_MASK, "TcKeyReq::setTakeOverScanInfo");
  scanInfo |= (aScanInfo << SCAN_INFO_SHIFT);
}


inline
Uint16
TcKeyReq::getAPIVersion(const UintR & anAttrLen){
  return (Uint16)((anAttrLen >> API_VER_NO_SHIFT) & API_VER_NO_MASK);
}

inline
void
TcKeyReq::setAPIVersion(UintR & anAttrLen, Uint16 apiVersion){
// ASSERT_MAX(apiVersion, API_VER_NO_MASK, "TcKeyReq::setAPIVersion");
  anAttrLen |= (apiVersion << API_VER_NO_SHIFT);
}

inline
Uint16
TcKeyReq::getAttrinfoLen(const UintR & anAttrLen){
  return (Uint16)((anAttrLen) & ATTRLEN_MASK);
}

inline
void
TcKeyReq::setAttrinfoLen(UintR & anAttrLen, Uint16 aiLen){
//  ASSERT_MAX(aiLen, ATTRLEN_MASK, "TcKeyReq::setAttrinfoLen");
  anAttrLen |= aiLen;
}

inline
UintR 
TcKeyReq::getNoDiskFlag(const UintR & requestInfo){
  return (requestInfo >> TCKEY_NODISK_SHIFT) & 1;
}

inline
void 
TcKeyReq::setNoDiskFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setNoDiskFlag");
  requestInfo &= ~(1 << TCKEY_NODISK_SHIFT);
  requestInfo |= (flag << TCKEY_NODISK_SHIFT);
}

inline
UintR
TcKeyReq::getReorgFlag(const UintR & requestInfo){
  return (requestInfo >> TC_REORG_SHIFT) & 1;
}

inline
void
TcKeyReq::setReorgFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setReorgFlag");
  requestInfo |= (flag << TC_REORG_SHIFT);
}

inline
UintR
TcKeyReq::getQueueOnRedoProblemFlag(const UintR & requestInfo){
  return (requestInfo >> QUEUE_ON_REDO_SHIFT) & 1;
}

inline
void
TcKeyReq::setQueueOnRedoProblemFlag(UintR & requestInfo, Uint32 flag){
  ASSERT_BOOL(flag, "TcKeyReq::setNoDiskFlag");
  requestInfo |= (flag << QUEUE_ON_REDO_SHIFT);
}

inline
void
TcKeyReq::setDeferredConstraints(UintR & requestInfo, UintR val){
  ASSERT_BOOL(val, "TcKeyReq::setDeferredConstraints");
  requestInfo |= (val << TC_DEFERRED_CONSTAINTS_SHIFT);
}

inline
UintR
TcKeyReq::getDeferredConstraints(const UintR & requestInfo){
  return (requestInfo >> TC_DEFERRED_CONSTAINTS_SHIFT) & 1;
}


#endif
